JPH0755338A - Drying device of running member - Google Patents

Abstract

PURPOSE:To provide a drying device of running member in which an efficient drying of air can be performed, energy required for heating operation can be reduced and water in the running member after water washing of it can be carried out. CONSTITUTION:More than two sets of heater devices ... having some rod-like heaters 2... and an elongated heater storing chamber 5 enclosing the heaters with a specific clearance C are arranged to communicated with each other. An ultra-sonic wave nozzle 3 is installed at a downstream side of the heater devices U,.... In addition, there is provided a temperature sensor for detecting that the heaters 2... show a specific temperature and for sending a signal for energizing a blower 1. Then, water is removed at the surface of a running member 9 while being run with air knife including an ultra-sonic wave pressure wave W.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dryer for a moving body.

[0002]

2. Description of the Related Art Ink or coating agent or a water-based or solvent-based ink applied to a traveling body such as a plate traveling in one direction (hereinafter also referred to as a sheet) or a belt-shaped body such as a web or a sheet. The drying device used when drying the wet layer such as, or when drying and removing the solvent such as water adhering after washing the running body with water is conventionally a hot air surface of the wet layer. The structure was such that it was sprayed onto and dried.

[0003]

However, the boundary layer generated on the surface of the undried layer remains as it is (because the boundary layer cannot be broken) by merely blowing hot air as in the conventional drying device. There is a problem that it takes a long time to dry because it impedes heat conduction to the dry layer. Furthermore, this boundary layer has accumulated a high concentration of solvent vapor near the surface of the undried layer, which has been an obstacle to solvent transfer and drying.

When water and the like adhering to the surface of the running body are instantaneously dried and removed, it is necessary to blow off the water and the like by wind pressure, but a boundary layer is generated on the surface of the running body as in the above case. Therefore, it could not be completely blown away.

Further, the conventional ones have the drawbacks that a low-speed high-speed air is jetted at the time of starting, the efficiency of heating the air is poor, and the heat of the jetted hot air is immediately diffused.

Therefore, the present invention solves the above-mentioned drawbacks and provides a traveling body drying device which can be used not only for drying an undried layer of ink or coating agent but also for draining traveling bodies. To aim.

Another object of the present invention is to provide a dryer for a traveling body which can efficiently heat air and can reduce energy (electrical energy) required for heating.

It is another object of the present invention to provide a drying device for a traveling body which can prevent low-temperature high-speed air from being blown out from the nozzle when the device is activated.

Another object of the present invention is to provide a drying device for a traveling body which can prevent the heat of the air jetted from the nozzle from being diffused.

[0010]

Means for Solving the Problems In order to achieve the above-mentioned object, a traveling-body drying apparatus according to the present invention drains the surface of a traveling traveling body with an air knife containing an ultrasonic pressure wave. is there.

Further, the traveling body drying apparatus according to the present invention is
A blower that sends air, a heater that heats the air, an ultrasonic nozzle that generates an ultrasonic pressure wave that destroys the boundary layer generated on the surface of the running body that is running by the passage of high-speed high-temperature air, and the ultrasonic nozzle. And vacuum means for sucking high-speed air ejected from the vehicle to the traveling body for circulation and reuse.

Further, the drying device for a traveling body according to the present invention is
An inflow slit that includes a rod-shaped heater and an elongated heater storage chamber that surrounds the heater with a predetermined clearance, and allows air to flow into a part of the storage chamber in a direction orthogonal to the surface of the heater. And a discharge slit part for discharging air to the side opposite to the inflow slit part is opened in the other part of the storage chamber.
Moreover, two or more sets of heater units each including the heater and the storage chamber are provided in communication with each other, and an ultrasonic nozzle is provided downstream thereof.

Further, the traveling body drying apparatus according to the present invention is
A blower that sends air, a heater that heats the air, an ultrasonic nozzle that generates an ultrasonic pressure wave that destroys the boundary layer generated on the surface of the running body that is running by high-speed air passage, and the heater And a temperature detector that sends out a signal for activating the blower when the temperature is reached.

Further, the traveling body drying apparatus according to the present invention is
A blower that sends air, a heater that heats the air, an ultrasonic nozzle that generates an ultrasonic pressure wave that breaks the boundary layer that occurs on the surface of the running body that is running by high-speed air passage, and the energization of the heater Timer circuit means for starting the blower after a predetermined time from the start.

Further, the traveling body drying device according to the present invention is
At the tip of the ultrasonic nozzle, which is close to the traveling body that is traveling, an ultrasonic flange is provided with an outer flange portion along the surface of the traveling body, which is attached in a protruding shape.

Further, the traveling body drying apparatus according to the present invention is
A flow dividing wall for equalizing the air volume of each part in the longitudinal direction of the rod-shaped heater is provided in the air flow path for sending air to the heater, and the air heated by this heater is traveling from the ultrasonic nozzle to the running body. It is a thing to blow to.

[0017]

[Operation] If the running knife surface is drained by the air knife containing the ultrasonic pressure wave, the boundary layer generated on the running object surface can be broken by the ultrasonic pressure wave, and the air knife is formed on the running object surface. Directly hits. This makes it possible to reliably blow off water droplets and the like attached to the surface of the traveling body.

In the case where the vacuum means is provided, the heated air can be circulated and utilized, so that the energy required for heating the air (electrical energy required for heating the heater) can be reduced.

A heater provided with an elongated heater accommodating chamber that surrounds the heater with a predetermined clearance can increase the heat exchange rate between the heater and the air.

In a device equipped with a temperature detector or timer circuit means, the blower operates after the heater is heated to a high temperature, so that the air generated from the ultrasonic nozzle has a high temperature from the beginning.

In the case where the ultrasonic nozzle having the outer flange portion is provided, the heated air can be efficiently applied to the traveling body, and the diffusion of heat can be prevented.

In the case where the rod-shaped heater is provided with the flow dividing wall for equalizing the air volume of each part in the longitudinal direction, the air temperature can be made uniform at the nozzle discharge port, and the heat of the heater and the air can be made uniform. The exchange rate can be increased.

[0023]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings showing the embodiments.

FIG. 1 shows an embodiment of a traveling body drying apparatus according to the present invention. This apparatus has a blower 1 for sending air at a high speed, a heating chamber section 4 for heating the air, and a blower 1. A pipe 8 that connects the heating chamber 4 to the heating chamber 4; and an ultrasonic nozzle 3 that generates an ultrasonic pressure wave W that destroys a boundary layer 12 generated on the surface of a traveling body 9 described later by passing high-speed air. I have it.

The heating chamber 4 has rod-shaped heaters 2 ... And elongated heater accommodating chambers 5 ... Enclosing the heaters 2 ... With a predetermined clearance C, respectively. In other words, this device has a rod-shaped heater 2 ... and a heater 2 ...
And an elongated heater storage chamber 5 that surrounds the heater with a predetermined clearance C.

An inflow slit portion 6 for allowing air to flow in is provided in a part of the storage chamber 5 in a direction orthogonal to the surface of the heater 2. Further, a discharge slit portion 7 for discharging air is provided on the side opposite to the inflow slit portion 6 in another portion of the storage chamber 5.

Then, three sets of heater units U, which are composed of the heater 2 and the storage chamber 5, are provided in communication with each other, and the ultrasonic nozzle 3 is provided downstream thereof.

As the ultrasonic nozzle 3, 20 KH _Z
It is preferable to use one that generates an ultrasonic pressure wave W of about 120 KH _Z. And, particularly preferably, 30KH
Those that generate the ultrasonic pressure wave W of _{Z ~80KH Z} is good.

Reference numeral 9 indicates an arrow B by a conveying means 10 such as a conveyor.
The traveling body 9 is a strip-shaped traveling body such as a web or sheet. Reference numeral 11 is a water drop, which is attached after the running body 9 is washed with water.

This device is constructed so as to drain the surface of the traveling body 9 during traveling by means of an air knife K containing ultrasonic pressure waves W ejected from the ultrasonic nozzles 3.

Here, the term "draining" means that the water droplets 11 and other solvents adhering to the surface of the running body 9 are removed and dried.

The apparatus also includes a temperature detector 13 which detects that the heaters 2 have reached a predetermined temperature and sends a signal for activating the blower 1. The temperature detector 13 is electrically connected to a temperature sensor (not shown) attached to the heaters 2 ...

When the power switch (not shown) is turned on, the heaters 2 ... When the heater 2 reaches a predetermined temperature, the temperature detector 13 detects it and activates the blower 1.

Thus, the high speed air E ₁ from the blower ₁
Is sent to the inside of the heating chamber 4 through the pipe 8. Then, the high-speed air E ₁ flows into the heater unit U, is heated by the heaters 2, and becomes high-speed high-temperature air E _2, and passes through the ultrasonic nozzle 3.

As a result, an ultrasonic pressure wave W is generated (for example, according to the same principle as a whistle that generates ultrasonic waves). In this way, the air knife K consisting of the ultrasonic pressure wave W and the high-speed high-temperature air E ₂ is moved by the traveling body 9
Sprayed on the surface of.

Then, the boundary layer 12 formed on the surface of the traveling body 9
The (low-speed air layer) is destroyed by the ultrasonic pressure wave W, and the high-speed high-temperature air E ₂ directly hits the surface of the traveling body 9. As a result, the water droplets 11 ... Adhering to the surface of the traveling body 9 can be completely blown off.

Further, as described above, since the high speed air E ₁ flows into the heater unit U after the heaters 2 are heated, the air knife K has a high temperature from the beginning of jetting. Therefore, the surface of the running body 9 containing a slight amount of water after the water droplets 11 have been blown off can be completely dried from the beginning of the ejection of the air knife K. Even when the water droplets 11 ... Are solvents other than water, they can be dried in the same manner as described above.

In FIG. 1, three sets of heater units U are provided, but it is also possible to make two sets or a plurality of sets of four or more sets.

The running body 9 has a strip shape,
It may be a plate-shaped member called a sheet by those skilled in the art.

Next, FIG. 2 shows another embodiment of the traveling-body drying apparatus of the present invention. This apparatus is a high-temperature high-speed air E ₂ jetted from the ultrasonic nozzle 3 to the traveling traveling body 9. And a timer circuit means 15 for activating the blower 1 after a predetermined time has passed from the start of energization of the heaters 2.

The vacuum means 14 includes a cover 16 having a downward opening which surrounds the heating chamber 4 above and laterally, and an air recovery pipe 18 which connects the cover 16 and the air intake 17 of the blower 1 in communication with each other. And. A filter 19 for air purification is arranged in the middle of the air recovery pipe 18.

An undried layer 21 of solvent-based ink, coating agent or the like is applied to one surface of the running body 9. Then, a slight gap S is provided between the lower opening edge of the cover portion 16 of the vacuum means 14 and the surface of the undried layer 21 applied to the traveling body 9.

Also, in this device, an outer flange portion 20 along the surface of the traveling body 9 is provided in a protruding shape at the tip of the ultrasonic nozzle 3 and near the traveling body 9 during traveling. It has an ultrasonic nozzle 3.

Further, as shown in FIG. 3, a flow dividing wall for equalizing the air volume of each part in the longitudinal direction of the rod-shaped heater 2.
22 is provided in an air flow path 23 that sends air to the heater 2.

Returning to FIG. 2, the timer circuit means 15 activates the blower 1 after the heater 2 reaches a predetermined temperature, and the high speed air E ₁ flows into the heating chamber 4. The flow dividing wall 22 in the air flow path 23 of the heating chamber 4
As a result, the amount of high-speed air E ₁ contacting each part of the heater 2 in the longitudinal direction is equalized. As a result, the air temperature at each part of the nozzle discharge port can be made uniform, and the high-speed air E ₁ can be efficiently heated.

As described above, the high speed air E ₁ is heated, the ultrasonic pressure wave W is generated from the nozzle 3, and the high speed high temperature air E ₂ is ejected.

The jetted high-speed high-temperature air E ₂ passes between the outer flange portion 20 and the undried layer 21 of the traveling body 9. Thereby, the diffusion of heat can be prevented and the drying efficiency can be improved.

Then, the recovery air E ₃ recovered by the vacuum means 14 flows into the blower 1 through the recovery pipe 18 and the filter 19. In this way, since the high-speed high-temperature air E ₂ is collected and heated again by the heater 2 of the heating chamber section 4, the high-speed high-temperature air E ₂ can be generated with a small amount of energy (electrical energy). Therefore, it can contribute to energy saving.

[0049]

Since the present invention is constructed as described above,
The following effects are achieved.

According to the drying device for a traveling body of claim 1, after the traveling body 9 is washed with water, the water droplets 11 and the like adhering to the surface of the traveling body 9 can be completely blown off, and the traveling body 9 can be dried at high speed. Can be made.

According to the traveling-body drying apparatus of the _{second aspect} , since the high-speed high-temperature air E ₂ ejected from the nozzle 3 is circulated and used, the high-speed air E ₁ passing through the heater 2 can be instantly heated to a high temperature. In addition, the energy required for heating (electrical energy) can be reduced.

According to the drying device for a moving body of claim 3, the air can be efficiently heated, and even if the air is at a high speed, it can be instantly heated to a high temperature.

According to the drying device for a moving body of claim 4, it is possible to prevent low-speed high-speed air from being jetted from the nozzle 3 when the device is started. Therefore, it is possible to prevent a problem such as undried ink or the like of the traveling body 9 flowing and the coated surface becoming dirty.

According to the drying device for a moving body of the fifth aspect, the same effect as that of the fourth aspect can be obtained.

According to the sixth aspect of the present invention, there is provided a drying device for a traveling body, which can prevent diffusion of heat of the high-speed high-temperature air E ₂ blown onto the traveling body 9 and can surely dry the surface of the traveling body 9 instantly. You can

According to the seventh aspect of the present invention, the high-speed air E ₁ can be efficiently heated, the energy (electrical energy) required for heating can be reduced, and the waste of energy can be prevented. it can.

[Brief description of drawings]

FIG. 1 is a simplified sectional side view showing an embodiment of the present invention.

FIG. 2 is a simplified sectional side view showing another embodiment.

FIG. 3 is a sectional front view of a main part.

[Explanation of symbols] 1 Blower 2 Heater 3 Ultrasonic nozzle 5 Elongated heater storage chamber 6 Inlet slit part 7 Ejection slit part 9 Traveling body 12 Boundary layer 13 Temperature detector 14 Vacuum means 15 Timer circuit means 20 Outer flange part 22 Dividing flow Wall 23 Air flow path C Clearance E ₁ High speed air E ₂ High speed high temperature air K Air knife U Heater unit W Ultrasonic pressure wave

Claims (7)

[Claims] 1. A traveling-body drying apparatus, characterized in that an air knife K containing an ultrasonic pressure wave W drains the surface of the traveling body 9 during traveling. 2. A high-speed air E ₁ passes through a blower 1 for sending air, a heater 2 for heating the air, and an ultrasonic pressure wave W that destroys a boundary layer 12 generated on the surface of a running body 9 during running. And a vacuum means 14 for sucking the high-speed high-temperature air E ₂ ejected from the ultrasonic nozzle 3 to the running body 9 that is running for circulation and reuse. And a drying device for moving bodies. 3. A rod-shaped heater 2, ... And this heater 2
And an elongated heater housing chamber 5 that encloses the heater 2 with a predetermined clearance C, and an inflow slit portion 6 that allows air to flow into a part of the housing chamber 5 in a direction orthogonal to the surface of the heater 2. A heater unit including the heater 2 and the storage chamber 5 is provided, and a discharge slit portion 7 for discharging air is provided on the side opposite to the inflow slit portion 6 in another portion of the storage chamber 5. U ... 2
A traveling body drying device, characterized in that a plurality of sets or more are provided in communication with each other, and an ultrasonic nozzle 3 is provided downstream thereof. 4. A high-speed air E ₁ passes through a blower 1 for sending air, a heater 2 for heating the air, and an ultrasonic pressure wave W that destroys a boundary layer 12 generated on the surface of a running body 9 during running. , An ultrasonic nozzle 3 generated by the above, and a temperature detector 13 for detecting that the heaters 2 have reached a predetermined temperature and sending a signal for activating the blower 1.
A drying device for a traveling body, comprising: 5. A high-speed air E ₁ passes through a blower 1 for sending air, a heater 2 for heating the air, and an ultrasonic pressure wave W that destroys a boundary layer 12 generated on the surface of a running body 9 during running. And a timer circuit means 15 for activating the blower 1 after a predetermined time has passed from the start of energization of the heaters 2 ... 6. An ultrasonic nozzle 3 in which an outer flange portion 20 along the surface of the traveling body 9 is provided in a projecting shape at the end of the ultrasonic nozzle 3 which approaches the traveling body 9 during traveling. A drying device for a traveling body, comprising: 7. A flow dividing wall 22 for equalizing the air volume of each part in the longitudinal direction of the rod-shaped heater 2 is provided in an air flow path 23 for sending air to the heater 2 and is heated by the heater 2. A traveling body drying device, characterized in that air is blown from the ultrasonic nozzles 3 to the traveling body 9 during traveling.